KR102267240B1 - Manufacturing method and manufacturing apparatus of strip-shaped glass film - Google Patents

Abstract

The manufacturing method of the strip|belt-shaped glass film GF includes the several roller 10 which turns the direction of the strip|belt-shaped glass film GF which is descending in the transverse direction, and the strip|belt-shaped glass film GF after the direction change is transverse direction. The first transverse conveying unit 4 is used to convey the
After the lower end of the strip-shaped glass film GF passes between the plurality of rollers 10 in the retracted position P2 and the first transverse conveying part 4, with respect to the strip-shaped glass film GF, By moving the plurality of rollers 10 from the retracted position P2 to the side of the regular position P1 to apply a pressing force to the belt-shaped glass film GF, the width direction of the belt-shaped glass film GF is divided by breaking. cut along

Description

Manufacturing method and manufacturing apparatus of strip-shaped glass film

The present invention relates to a method and an apparatus for manufacturing a strip-shaped glass film.

As is well known, plate glass used in flat panel displays (FPD) such as liquid crystal displays, plasma displays and organic EL displays, plate glass used in organic EL lighting, glass plates used in the manufacture of tempered glass, which are components of touch panels, Moreover, thinning of the glass plate used for the panel of a solar cell etc. is promoted.

Among these types of thinned glass plates, a glass film having a thin plate thickness (for example, 300 µm or less) and flexibility is manufactured by, for example, a manufacturing method called an overflow downdraw method.

For example, as disclosed in Patent Document 1, in the manufacturing method using the overflow downdraw method, a member such as a roller (direction changing member) that converts the falling strip-shaped glass film in the transverse direction, and The belt-shaped glass film which has descended from a molded object may be changed and conveyed in a transverse direction using a belt conveyor etc. (horizontal conveyance part) which conveys a strip|belt-shaped glass film transversely.

The reason why the strip-shaped glass film is transferred in the transverse direction by changing the direction in this way is that it is easy to transport the strip-shaped glass film in a stable posture, and it is easy to laser cut both ends of the strip-shaped glass film unnecessary as a product in the width direction.

Japanese Patent Laid-Open No. 2012-25624

By the way, for example, when starting manufacture of a strip|belt-shaped glass film, it is necessary to change the direction of the lower end part of the strip|belt-shaped glass film which started descending from a molded object, and to introduce|transduce it into a horizontal conveyance part. Moreover, in that case, in order to make the lower end part of a strip|belt-shaped glass film into an appropriate shape, etc., it is preferable to cut|disconnect the strip|belt-shaped glass film in the width direction.

However, conventionally, the technique of what should cut|disconnect the falling strip|belt-shaped glass film in the width direction by what position and by what method has not been established. Therefore, it was difficult to properly change the direction of the strip-shaped glass film and to introduce it into the horizontal conveyance part smoothly.

In view of the above circumstances, the present invention is to appropriately change the direction of the strip-shaped glass film by cutting the descending strip-shaped glass film in the width direction at an appropriate position and by an appropriate method to smoothly introduce the strip-shaped glass film into the horizontal conveying section. make it a technical task.

A method for producing a strip-shaped glass film according to the present invention devised to solve the above problems includes: a direction change member for turning a descending strip glass film in the transverse direction; In the manufacturing method of a strip|belt-shaped glass film using the transverse conveying part conveyed by is movable in the transverse direction, and after the lower end of the strip-shaped glass film passes between the turning member in the retracted position and the transverse conveying portion, the turning member is retracted with respect to the strip-shaped glass film The strip-shaped glass film is cut along the width direction by breaking division by moving from the position to the side of the regular position and applying a pressing force.

According to this structure, the strip|belt-shaped glass film above the cut|disconnection location by a breaking division|segmentation can be supported from the lower side by a direction change member. At this time, this strip|belt-shaped glass film is guided so that it may change direction appropriately. Therefore, this strip-shaped glass film can be smoothly introduced into the transverse conveying section after the direction changing member is moved to the regular position. That is, according to the manufacturing method of the strip|belt-shaped glass film which concerns on this invention, since the descending strip|belt-shaped glass film is cut|disconnected in the width direction with the movement to the normal position side of a direction change member, this strip|belt-shaped glass film is appropriately cut. It is possible to smoothly introduce it into the transverse conveyance part after the direction change.

In the said structure, you may scratch the said strip|belt-shaped glass film for the said breaking division|segmentation.

If it is this structure, breaking division|segmentation of a strip|belt-shaped glass film becomes easy.

In the above configuration, the direction changing member may be a plurality of rollers, the plurality of rollers may be mounted on a housing body, and by moving the housing body, the direction changing member may be movable between the normal position and the retracted position. .

With this structure, it becomes possible to apply the pressing force for cutting|disconnection to a strip|belt-shaped glass film by making a roller directly contact with a strip|belt-shaped glass film. In addition, it becomes possible to move a plurality of rollers together by the housing body.

In the said structure, the said housing body may be equipped with the said housing body WHEREIN: The scratching part which scratches the said strip|belt-shaped glass film for the said breaking division|segmentation may be attached.

With this configuration, it is possible to reduce the number of parts and save space compared to the case where the scratching portion is disposed in a place different from the housing body.

In the case where the housing body is equipped with a scratching unit for scratching the band-shaped glass film for the breaking division, the scratching unit is provided with the band while the direction shifting member is moving from the retracted position to the normal position. The shape glass film may be scratched.

With this configuration, when the housing comes close to the strip-shaped glass film, the strip-shaped glass film can be scratched by the scratching portion. Therefore, since the scratching part can be disposed close to the housing body, a long member is not required to attach the scratching part to the housing body, so that it is possible to reduce the number of parts and save space.

In the case where a scratching portion for scratching the strip-shaped glass film for the breaking division is mounted on the housing body, the speed at which the turning member moves from the retracted position to the normal position is determined by the speed at which the scratching portion is formed into the strip-shaped portion. The one after scratching the glass film may be larger than before scratching the glass film.

If it is this structure, when a direction change member contacts a strip|belt-shaped glass film until it is scratched, it can suppress that a strip|belt-shaped glass film is damaged. Moreover, the breaking division after scratching can be performed more reliably.

In the case where a scratching portion for scratching the strip-shaped glass film is attached to the housing for the breaking division, the scratching portion may scratch both ends of the strip-shaped glass film in the width direction.

If it is this structure, since it is thick, the width direction both ends of the strip|belt-shaped glass film which is hard to cut|disconnect can be cut|disconnected more reliably.

In the above configuration, a supporting member for supporting the strip-shaped glass film from below is provided between the direction changing member in the normal position and the transverse conveying part, and the supporting member is a support for supporting the strip-shaped glass film You may be able to move up and down between a position and a stand-by position lower than the said support position.

If it is this structure, when the strip|belt-shaped glass film on the upstream side from a cut|disconnection location cannot be supported by a turning member, it is possible to receive this strip|belt-shaped glass film by the support member of a standby position. And when the support member which received the strip|belt-shaped glass film moves from a stand-by position to a support position, a strip|belt-shaped glass film can be made to enter a horizontal conveyance part. That is, if it is this structure, a strip|belt-shaped glass film can be introduce|transduced into a horizontal conveyance part more reliably.

The apparatus for manufacturing a strip-shaped glass film according to the present invention devised in order to solve the above problems includes: a direction change member for turning a descending strip-shaped glass film in the transverse direction; and a transverse direction for the strip-shaped glass film after the direction change. An apparatus for manufacturing a strip-shaped glass film having a transverse conveying unit conveyed by is movable in the transverse direction, and after the lower end of the strip-shaped glass film passes between the turning member in the retracted position and the transverse conveying portion, the turning member is retracted with respect to the strip-shaped glass film It is comprised so that the said strip|belt-shaped glass film may be cut|disconnected along the width direction by breaking division by moving from a position to the side of the said normal position and applying a pressing force, It is characterized by the above-mentioned.

If it is this structure, the effect|action and effect substantially similar to the effect|action and effect by the manufacturing method of the strip|belt-shaped glass film which concerns on this invention demonstrated at the beginning can be enjoyed.

As described above, according to the present invention, by cutting the descending strip-shaped glass film in the width direction at an appropriate position and by an appropriate method, the strip-shaped glass film can be properly redirected and smoothly introduced into the transverse conveying section. have.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic side view which shows the normal operating state of the manufacturing apparatus of the strip|belt-shaped glass film which concerns on embodiment of this invention.
It is a schematic side view which shows the operation|movement of the manufacturing apparatus at the time of starting manufacture of a strip|belt-shaped glass film.
It is a schematic side view which shows the operation|movement of the manufacturing apparatus at the time of starting manufacture of a strip|belt-shaped glass film.
It is a figure which shows the operation|movement of the scratching part at the time of starting manufacture of a strip|belt-shaped glass film, and is the schematic seen from the right side of FIG.
It is a figure which shows the operation|movement of the scratching part at the time of starting manufacture of a strip|belt-shaped glass film, and is a schematic top view.
It is a schematic side view which shows operation|movement of the manufacturing apparatus at the time of starting manufacture of a strip|belt-shaped glass film.
It is a schematic side view which shows operation|movement of the manufacturing apparatus at the time of starting manufacture of a strip|belt-shaped glass film.
It is a schematic side view which shows the manufacturing apparatus of the strip|belt-shaped glass film which concerns on the modified example of this invention.

EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated based on drawing.

BRIEF DESCRIPTION OF THE DRAWINGS It is a schematic side view which shows the normal operating state of the manufacturing apparatus of the strip|belt-shaped glass film which concerns on embodiment of this invention. The manufacturing apparatus 1 of a strip|belt-shaped glass film manufactures the strip|belt-shaped glass film GF (GFb) by the overflow down-draw method.

The manufacturing apparatus 1 includes a forming part 2 , a direction changing part 3 , a first transverse transport part 4 , a second transverse transport part 5 , a third transverse transport part 6 , and , the cutting part 7 , the auxiliary conveying part 8 , and the winding part 9 are the main components.

The shaping|molding part 2 shape|molds the strip|belt-shaped glass film GF, flowing down the molten glass MG from the molded object 2a longitudinally by the overflow down-draw method.

In the shaping|molding part 2, strip|belt-shaped molten glass MG is produced|generated continuously from the molded object 2a. And the cooling roller 2b for regulating the shrinkage|contraction of the width direction of this strip|belt-shaped molten glass MG, and the annealer roller 2d arrange|positioned over multiple stages in the annealer 2c for removing distortion. The strip|belt-shaped glass film GF is shape|molded by taking out the strip|belt-shaped molten glass MG downward, clamping it from front and back both sides by this. Further, directly below the annealer roller 2d, a support roller 2e for drawing the strip-shaped glass film GF downward while pinching it from both sides of the annealing roller 2e is arranged, and by this support roller 2e, the annealer ( 2c) A tension|tensile_strength is given to the strip|belt-shaped glass film GF in the inside.

In addition, in this embodiment, although it is the form which shape|molds the strip|belt-shaped glass film GF by the overflow down-draw method, it is not limited to this, A strip|belt-shaped glass film by the slot-down draw method, the redraw method, etc. It is good also as a form which shape|molds (GF).

The direction change part 3 changes direction to the lateral direction, curving the strip|belt-shaped glass film GF which was shape|molded by the shaping|molding part 2 and descend|falls in the longitudinal direction. The direction change unit 3 includes a plurality of rollers 10 (direction change members) that rotate while supporting the curved strip-shaped glass film GF from the lower side, and a housing 11 to which the plurality of rollers 10 are attached. ) has These plural rollers 10 are arranged in parallel to form a conveyance path curved in a smooth concave shape. The housing body 11 has a wheel 11a at its lower part, and the direction change part 3 is movable on the floor F by this wheel 11a in the lateral direction. By moving the direction change part 3 in the lateral direction, it is possible to move in the lateral direction between the regular position P1 and the retracted position P2 in which the plurality of rollers 10 change the direction of the strip-shaped glass film GF. . The retracted position P2 of the some roller 10 is a position separated from the 1st horizontal conveying part 4 rather than the regular position P1.

The plurality of rollers 10 of the direction change part 3 have a rotation axis along the width direction of the strip-shaped glass film GF (refer to Fig. 4A). And each roller 10 has a pair of end support parts 10a which support the width direction both ends (edge part GFa) of the strip|belt-shaped glass film GF, and the width direction center part of the strip|belt-shaped glass film GF. It is comprised by the central support part 10b which can support (effective surface part GFb used as a product). The central support part 10b is comprised so that reciprocating movement is possible between the support position which can support the effective surface part GFb, and the retracted position which does not support the effective surface part GFb. The center support part 10b serves as a support position at the time of the manufacturing start of the strip|belt-shaped glass film GF by the shaping|molding part 2, and contributes to stabilization of the shaping|molding precision of the strip|belt-shaped glass film GF. After the molding precision of the strip-shaped glass film GF is stabilized, unnecessary damage to the effective surface part GFb is prevented by setting the central support part 10b as a retracted position.

The plurality of rollers 10 (roller conveyors) of the direction change unit 3 are all driven rollers in this embodiment, but some or all of them may be non-driven rollers (guide rollers). In addition, as a direction change member of the direction change part 3, it may not be the some roller 10, and a belt conveyor, an air float stand, etc. may be sufficient.

A pair of scratching portions 12 for scratching the strip-shaped glass film GF at the start of production of the strip-shaped glass film GF is attached to the housing 11 of the direction changing portion 3 (Fig. 4A). , see Fig. 4b). The scratching part 12 is waiting with respect to the strip|belt-shaped glass film GF except the time of scratching at the position spaced apart in the width direction of the strip|belt-shaped glass film GF.

The scratching part 12 is a wheel cutter using diamond chips in this embodiment. However, the scratching unit 12 is not limited thereto, and may be a carbide blade, a file, sand paper, or the like, or may be constituted by a device such as a laser launcher for scratching with a laser.

As shown in FIG. 1, the 1st transverse conveyance part 4 conveys the strip|belt-shaped glass film GF transversely changed by the direction change part 3 horizontally, supporting from the lower side.

The 2nd horizontal conveyance part 5 conveys the strip|belt-shaped glass film GF conveyed from the 1st horizontal conveyance part 4 in the lateral direction, supporting from the lower side. The cut part 7 is comprised, for example with a laser cutting device, and is a strip|belt-shaped glass film with the width direction both ends (edge part GFa) of the strip|belt-shaped glass film GF supported by the 2nd horizontal conveyance part 5. Cut along the progress direction of (GF).

The 3rd transverse conveyance part 6 conveys the strip|belt-shaped glass film GF (effective surface part GFb used as a product) from which the edge part GFa was cut|disconnected from the lower side, supporting it from the lower side. The auxiliary conveyance part 8 conveys the cut edge part GFa obliquely downward while supporting it from the lower side.

Although the 1st - 3rd transverse conveyance parts 4-6 and the auxiliary conveyance part 8 are belt conveyors in this embodiment, a roller conveyor etc. may be sufficient. If the strip-shaped glass films GF, GFa, GFb can be conveyed by the driving force provided by any member of the manufacturing apparatus 1 whole, the 1st - 3rd horizontal conveying parts 4-6 and an auxiliary|assistant It is not necessary for the conveyance part 8 to necessarily provide the driving force for conveying to the strip|belt-shaped glass films GF, GFa, GFb, and 1st - 3rd transverse conveyance parts 4-6 and the auxiliary conveyance part 8 Each of may be a roller conveyor composed only of non-driven rollers (guide rollers), or may be an air float stand or the like.

The winding part 9 wraps the effective surface part GFb of the strip|belt-shaped glass film GF carried out from the 3rd transverse transport part 6 with the protective sheet S, and rolls it around the periphery of the core 9a, Let it be a glass roll (GR).

In addition, in this embodiment, the strip|belt-shaped glass film GF is made into a horizontal direction, and it is set as the form conveyed in a horizontal direction. However, it is good also as an aspect which conveys the strip|belt-shaped glass film GF in the range of 45 degrees or less up and down with respect to a horizontal direction in the inclination direction not only to this, respectively.

Next, the manufacturing start time of the strip|belt-shaped glass film GF by the manufacturing apparatus 1 is demonstrated.

As shown in FIG. 2, the direction change part 3 is previously moved so that the roller 10 may become the retracted position P2. At this time, the central support part 10b of the roller 10 of the direction change part 3 is set as a support position. And the shaping|molding of the strip|belt-shaped glass film GF is started by the shaping|molding part 2 . And the strip|belt-shaped glass film GF is continuously descend|falling from the molded object 2a until the shape of the strip|belt-shaped glass film GF is stabilized. Then, the lower end of the strip-shaped glass film GF passes between the roller 10 at the retracted position P2 and the first transverse conveying part 4, and then passes through the through hole H formed in the bottom F. Go further and reach the lower level.

Next, as shown in FIG. 3, the direction change part 3 is moved to the side of the 1st horizontal carrying part 4 side. In accordance with this, the roller 10 moves from the retracted position P2 to the side of the regular position P1. And at this time, with respect to the strip|belt-shaped glass film GF, the surface on the side of the 1st transverse conveyance part 4 is scratched by the scratching part 12. As shown in FIG. At this time, as shown by an arrow in FIG. 4B , the scratching portion 12 is one of the pair of scratching portions 12 , one of the edge portions GFa (both ends in the width direction) of the strip-shaped glass film GF. While scratching, the other of the pair of scratching parts 12 scratches the other of the edge part GFa (cross direction both ends) of the strip|belt-shaped glass film GF. In detail, the scratching portion 12 moves from the outside to the inside along the width direction of the strip-shaped glass film GF in a non-contact state with respect to the edge portion GFa of the strip-shaped glass film GF, It is scratched toward the outside from the inside along the width direction of the strip|belt-shaped glass film GF.

In addition, in the case of scratching, in the illustrated example, the scratching part 12 is arranged opposite to the roller 10 of the lowermost (most downstream) of the direction changing part 3, and the lowermost roller 10 is a strip-shaped glass film. (GF) is supported. However, the present invention is not limited thereto, and as long as a certain amount of support is obtained from the lowermost roller 10, the scratching portion 12 may be disposed above or below the position facing the lowermost roller 10 at the time of scratching. .

Then, when the direction change part 3 is moved to the side of the 1st transverse conveyance part 4, as shown in FIG. 5, the roller 10 of the lowermost stage of the direction change part 3 turns into a strip|belt-shaped glass film ( By contacting GF) and providing a pressing force to the strip|belt-shaped glass film GF, the strip|belt-shaped glass film GF is cut|disconnected along the width direction by breaking division|segmentation. In addition, the lowermost roller 10 of the direction change part 3 is the front-end|tip side of the movement (advance) direction of the direction change part 3 among the rollers 10 of the direction change part 3 .

Furthermore, when the direction change part 3 is moved to the side of the 1st transverse conveyance part 4, the part upstream of the cut|disconnection part of the strip-shaped glass film GF is a roller in a state supported by the plurality of rollers 10. (10) arrives at the normal position P1. In addition, the speed when the roller 10 of the direction change part 3 moves from the retracted position P2 to the regular position P1 is higher than before the scratching part 12 scratches the strip-shaped glass film GF. The rear is larger.

Then, as shown in FIG. 6, the site|part on the upstream side from the cut|disconnection location of the strip|belt-shaped glass film GF advances on the 1st transverse conveyance part 4 by its own weight, the drive of the support roller 2e, etc. . And the site|part on the upstream side from the cut|disconnection location of the strip|belt-shaped glass film GF advances from the 1st horizontal conveying part 4 onto the 2nd horizontal conveying part 5, The manufacturing apparatus 1 demonstrated with FIG. Normal operation is started. At this time, let the central support part 10b of the roller 10 of the direction change part 3 be a retracted position.

In the manufacturing apparatus 1 comprised as mentioned above, the following effects can be enjoyed.

The strip-shaped glass film GF above the cut portion by the breaking division may be supported from the lower side by the plurality of rollers 10 . At this time, this strip|belt-shaped glass film GF is guide|induced so that it may change direction appropriately. Therefore, this strip|belt-shaped glass film GF can smoothly advance on the 1st transverse conveyance part 4 after the some roller 10 moves to the regular position P1. That is, according to the manufacturing method of the strip|belt-shaped glass film which concerns on this embodiment, the descending strip|belt-shaped glass film GF is cut|disconnected in the width direction according to the movement toward the regular position P1 side of the some roller 10. For this reason, it is possible to introduce|transduce this strip|belt-shaped glass film GF into the 1st horizontal conveyance part 4 smoothly, after changing direction appropriately.

The present invention is not limited to the above embodiment, and various modifications are possible within the scope of the technical idea. For example, in the said embodiment, although the some roller 10 and the 1st transverse conveyance part 4 in the regular position P1 were adjacent, as shown in FIG. 7, the plurality in the regular position P1 A support member (auxiliary roller 13 ) for supporting the strip-shaped glass film GF from the lower side may be provided between the roller 10 and the first transverse conveying part 4 of the . The auxiliary roller 13 is vertically movable between the support position P3 which supports the strip|belt-shaped glass film GF, and the standby position P4 below the support position P3. In addition, in FIG. 7, in order to make the auxiliary roller 13 easy to see, illustration of the housing body 11 and the scratching part 12 is abbreviate|omitted.

In this case, when the strip|belt-shaped glass film GF on the upstream side from a cut|disconnection location cannot be supported by the roller 10 of the direction change part 3, this strip|belt is carried out by the auxiliary roller 13 of the stand-by position P4. It is possible to receive the shape glass film GF. Then, when the auxiliary roller 13 receiving the strip-shaped glass film GF moves from the standby position P4 to the support position P3, the strip-shaped glass film GF is moved onto the first transverse conveying unit 4 . can proceed. That is, the strip|belt-shaped glass film GF can be introduce|transduced into the 1st horizontal conveyance part 4 more reliably.

In addition, the auxiliary roller 13 may be a non-driven roller (guide roller), and a driving roller may be sufficient as it. Moreover, as a support member which supports the strip|belt-shaped glass film GF from the lower side, it may not be a roller, and a belt conveyor or an air float stand may be sufficient.

Moreover, in the said embodiment, in order to cut|disconnect the strip|belt-shaped glass film GF, the pressing force was provided by making the roller 10 of the direction change part 3 directly contact with the strip|belt-shaped glass film GF, but limited to this. It does not do so, for example, you may provide a pressing force by blowing gas toward the strip|belt-shaped glass film GF by the gas blowing mechanism etc. provided in the direction change part 3, for example.

Moreover, in the said embodiment, although the strip|belt-shaped glass film GF was broken by scratching the strip|belt-shaped glass film GF, the strip|belt-shaped glass film GF was broken without scratching the strip|belt-shaped glass film GF. may be divided. In addition, when scratching the strip|belt-shaped glass film GF, you may scratch by hand using a diamond cutter etc., without providing the scratching part 12 in the manufacturing apparatus 1 .

Moreover, although the scratching part 12 was attached to the housing body 11 in the said embodiment, at another location of the manufacturing apparatus 1 (for example, the lowering location of the strip|belt-shaped glass film GF of FIG. 1). A scratching portion 12 may be provided.

Moreover, in the said embodiment, although the retracted position P2 of the roller 10 of the direction change part 3 was a position where the roller 10 does not interfere with the strip|belt-shaped glass film GF, the roller 10 is strip|belt-shaped The position which interferes with the glass film GF to some extent may be sufficient.

Moreover, in the said embodiment, when starting shaping|molding of the strip|belt-shaped glass film GF, the strip|belt-shaped glass film GF was cut|disconnected by breaking division, but when cutting|disconnecting the strip|belt-shaped glass film GF by breaking division, It is not limited to this. For example, for the maintenance of the 1st transverse conveyance part 4 or a facility downstream from it, after making the strip|belt-shaped glass film GF fall temporarily into the through-hole H of the floor F, it may be sufficient. Moreover, it may be after cutting|disconnecting etc. below the bottom F (lower layer) and manufacturing the strip|belt-shaped glass film GF.

In addition, in the said embodiment, although the strip|belt-shaped glass film GF was descending from the shaping|molding part 2, what is descending in the middle of conveyance may be sufficient.

1: Manufacturing device
4: 1st transverse conveyance part
10: roller (direction change member)
11: housing body
12: scratching part
13: auxiliary roller
GF: strip-shaped glass film
GFa: Edge portion (both ends in the width direction)
P1: regular position
P2: Evacuation position
P3: support position
P4: Standby position

Claims (9)

A method for producing a belt-shaped glass film, comprising: a direction changing member for transversely redirecting a descending belt-shaped glass film; and a transverse conveying unit for conveying the belt-shaped glass film in the transverse direction after the direction change, the method comprising:
The direction changing member is movable in the horizontal direction between a regular position in which the strip-shaped glass film is turned and a retracted position separated from the horizontal conveying part from the regular position,
After the lower end of the strip-shaped glass film passes between the turning member in the retracted position and the transverse conveying portion, the direction turning member is moved from the retracted position to the side of the regular position with respect to the strip-shaped glass film A method for producing a strip-shaped glass film, characterized in that the strip-shaped glass film is cut along the width direction by breaking by applying a pressing force. The method of claim 1,
The method for producing a strip-shaped glass film, characterized in that scratching the strip-shaped glass film for the breaking division. 3. The method of claim 2,
the direction change member is a plurality of rollers, the plurality of rollers are mounted on the housing;
The manufacturing method of the strip|belt-shaped glass film characterized by the said housing body being moved, and the said direction conversion member being movable between the said normal position and the said retracted position. 4. The method of claim 3,
A method for producing a strip-shaped glass film, characterized in that a scratching unit for scratching the strip-shaped glass film is mounted on the housing for the breaking division. 5. The method of claim 4,
The manufacturing method of the strip|belt-shaped glass film characterized by the said scratching part scratching the said strip|belt-shaped glass film while the said turning member is moving from the said retracted position to the said normal position. 6. The method according to claim 4 or 5,
A method for producing a strip-shaped glass film, wherein the speed at which the direction turning member moves from the retracted position to the regular position is greater after the scratching portion scratches the strip-shaped glass film than before scratching the strip-shaped glass film. 6. The method according to claim 4 or 5,
The manufacturing method of the strip|belt-shaped glass film characterized by the said scratching part scratching the width direction both ends of the said strip|belt-shaped glass film. 3. The method according to claim 1 or 2,
A support member for supporting the strip-shaped glass film from the lower side is disposed between the direction changing member at the regular position and the transverse conveying part,
The said support member is movable in an up-down direction between the support position which supports the said strip|belt-shaped glass film, and the standby position below the said support position, The manufacturing method of the strip-shaped glass film characterized by the above-mentioned. An apparatus for manufacturing a belt-shaped glass film comprising: a direction changing member for transversely redirecting a descending belt-shaped glass film; and a transverse conveying unit for conveying the belt-shaped glass film in the transverse direction after the direction change, the apparatus comprising:
The direction change member is movable in the transverse direction between a regular position for changing the direction of the strip-shaped glass film and a retracted position separated from the horizontal conveying part from the regular position,
After the lower end of the strip-shaped glass film passes between the turning member in the retracted position and the transverse conveying portion, the direction turning member is moved from the retracted position to the side of the regular position with respect to the strip-shaped glass film and applying a pressing force, thereby cutting the strip-shaped glass film along the width direction by breaking division.

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